The Schizosaccharomyces pombe eIF3a ortholog (SpeIF3a) was shown to be unable to substitute for S. cerevisiae eIF3a (SceIF3a) in its essential function in the initiation of translation. Overproduction of SpeIF3a altered the distribution of SceIF3a but formation of the endogenous eIF3 complex was not affected. SpeIF3a was found to be more tightly bound to S. cerevisiae ribosomes than SceIF3a and other eIF3 subunits (eIF3g, eIF3i, eIF3j). The host cells displayed aberrant morphology and altered chitin deposition. SpeIF3a probably competes with SceIF3a for binding to either ribosomes or yet to be identified substrates.
The isolation of the cDNA sequence encoding the human neuronal kinesin (a force-generating motor protein which transports various membrane organelles along microtubules in an ATP-dependent manner) heavy chain (nKHC) and the construction of expression vectors to produce the full-length nKHC and its domains in Escherichia coli is described. By tuning up the conditions for the expression of nKHC, a sufficient amount of the soluble protein intragenously tagged with 6xHis tag was obtained and purified by nickel chromatography. The recombinant structural domains of nKHC, including the motor domain (FKHC1--amino acids 1-330), the microtubule binding domain (FKHC2--amino acids 174-315) and the coiled-coil stalk domain (FKHC3--amino acids 331-906) were used to determine the epitope location for monoclonal antibodies KN-01, KN-02, and IB II raised against different kinesin heavy chains. The antibodies were shown to recognize epitopes located in the stalk domain of nKHC and represent thus useful probes for this domain.
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